HomeMy WebLinkAboutCDP 00-62; Hamilton Residence; Soils Report; 2001-05-22Eni/nieerinf^NC.
CIVIL GEOTECHNICAL i QUALITY ENGINEERING
FOUNDATION DESIGN • LAND SURVEYING • SOIL TESTING
CONSTRUCTION MANAGEMENT i INSPECTION
CLIENT: HAMILTON
PROJECT: HAM 501 U
DATE: 22 MAY 2001
JOHN & BARBARA HAMILTON
2335 Pio Pico Drive
Carlsbad, CA. 92008
Attention: Mr. John Hamilton
Mr. Sam Wright
Subject: Soil Update Report for the Proposed Construction for the Residence
located at 2335 Pio Pico Drive, Oceanside, CA. (APN: 156-350-11)
Reference (a): Preliminary Geotechnical Soils Investigation Report by B & B
Engineering, Inc. dated 27 June 1998.
(b): Results of Compaction Testing Report by B & B Engineering, Inc.
dated 14 October 1998.
Gentlemen:
Pursuant to your request, we have completed our site inspection in regard to
the existing soil conditions for the subject site. On May 22, 2001, a representative
from our firm visited the site in order to evaluate the existing surface soil conditions
relative to the proposed construction.
According to Reference (b), this lot was graded and tested under engineering
supervision between August 27 and September 4, 1998. The grading was
performed in accordance with Reference (a) and the City ofCarlsbad Grading
Ordinance. Reference (b) report indicated sufficient testing that showed over 90%
relative compaction in the fill portion of the lot. No geotechnical conditions were
encountered which would preclude the development ofthe site.
Based on our visual inspections and observations in the field and our review
ofthe Geotechnical Reports, References (a) & (b), the following conclusions were
derived:
The general overall surface soil conditions do not appear to have changed
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FOUNDATION DESIGN • LAND SURVEYING • SOIL TESTING
CONSTRUCTION MANAGEMENT S INSPECTION
significantly since the rough grading operation. It is our opinion that the cut/fill pad
may support the proposed structure. Foundations shall be sized and constructed in
accordance with the recommendations found in Reference (b). For foundation
design purposes, an allowable bearing strength of 1450 psf may be utilized for all
continuous or spread footings founded in dense or imported native soils compacted
to 90% relative compaction per ASTM D 1557-91. This design bearing value is in
accordance with the Uniform Building Code.
It is our opinion that the soils underlying the subject lot may support the
proposed residential construction. However, the conclusions and recommendations
found in the latter part of this report shall be incorporated in the design plans.
GEOLOGIC HAZARDS
According to published information, there are no known active or potentially
active faults on or in the immediate vicinity of the subject site. Therefore, the
potential for ground rupture at this site is considered low. There are, however,
several faults located within a close proximity to this site that the movement
associated with them could cause significant ground motion. The following table
presents the distance of major faults from the site, the assumed maximum credible
earthquake magnitudes and estimated peak accelerations anticipated at the site. The
probability of such an earthquake occurring during the lifetime of this project is
considered low. The severity of ground motion is not anticipated to be any greater
at this site than in other areas of San Diego County.
SEISMICITY OF MAJOR FAULTS
MAXIMUM CREDIBLE ESTIMATED
FAULT DISTANCE MAGNITUDE(RICHTER) ACCELERATION(g)
Rose Canyon 5 mi. 7.0 0.25
Elsinore 29 mi. 7.5 0.35
San Jacinto 52 mi. 7.8 0.17
San Andreas 78 mi. 8.3 0.12
The following information is presented relative to the subject site and
Seismic Zone 4 per the U.B.C:
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1611-ASO. MELROSE DRIVE #285. VISTA. CA 92083-5497 • 760-945-3150 • FAX: 760-945-4221
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FOUNDATION DESIGN • UND SURVEYING • SOIL TESTING
CONSTRUCTION MANAGEMENT i INSPECTION
(z) Seismic zone factor = 0.4
(Na) Near-source factor = 1.2
(A) Seismic source type = A
(Sd) Soil profile type = Sd
(Ca) Seismic coefficient = 0.44 Na
(Cv) Seismic coefficient = 0.64 Nv
(Nv) Near-source factor = 1.2
LIQUEFACTION POTENTIAL
Liquefaction analysis of the soils underlying the site was based on the
consideration of various factors which include the water level, soil type gradation,
relative density, intensity of ground shaking and duration of shaking. Liquefaction
potential has been found to be the greatest where the ground water level is shallow
and loose fine sands occur within a depth of 50 feet or less. These conditions are
not present within the site area and, therefore, the potential for generalized
liquefaction in the event of a strong to moderate earthquake on nearby faults is
considered to be low.
STABILITY
The relatively dense nature of the slopes within the site and the nature ofthe
material underlying the site generally preclude the occurrence of major landslide
conditions. The area surrounding the site is not known to be within an area of
ground subsidence. The potential for deep seated slope failure at the subject site is
considered low.
The site surface materials consist of silty sands that are relatively dense in
their dry state. These materials are susceptible to erosion. Drainage control is
essential to maintain the stability of any planned slopes or slope areas.
FOUNDATIONS
For foundation design purposes, the following earth pressures were
calculated based on our Shear Test Results of the nafive soils per Reference (a) and
based on a foundation depth and width of 12 inches:
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FOUNDATION DESIGN • UND SURVEYING • SOIL TESTING
CONSTRUCTION MANAGEMENT i INSPECTION
Shear Test: Cohesion = 600 psf; Angle of Fricfion =16°
Allowable Bearing Value = 1450 psf
Equivalent Fluid Pressure = 76 psf
Passive Lateral Resistance = 235 psf
Active Pressure = 76 psf
Coefficient of Fricfion = 0.35
Expansion Index = 68 (MODERATE)
These values are for dead plus live loads and may be increased by one-third
(1/3) for seismic and wind loads where allowed by code. These design bearing
values are in accordance with the Uniform Building Code and were calculated
based on Terzaghis' Formula.
It is recommended that the continuous perimeter foundafions and concrete
slabs for a light weight wood-framed structure shall be reinforced in accordance
with the following minimum designs:
a. Foundafion dimensions: it is recommended that the continuous perimeter
foundations for a single story structure shall extend a minimum depth of 18 inches
and a minimum width of 12 inches into firm nafive soils with a relative compacfion
exceeding 90%). A minimum of 24 inches deep by 15 inches wide shall be used for
a two story structure.
b. All foundations shall be reinforced with at least four No.4 steel bars, two
bars shall be placed 3 inches from the top of the foundation and the other bars shall
be placed 3 inches from the bottom. As an altemative to the four No. 4 steel rebars,
one No. 5 steel rebar top and bottom may be used.
c. All interior concrete slabs shall be a minimum of four inches in thickness
and reinforced with a minimum of No. 3 rebar at 18 inches on center both ways
placed in the center of the slab. The slab steel reinforcement shall be bent
downward into the perimeter footings and connected to the foundation steel at 18
inches on center. In order to minimize vapor transmission, an impermeable
membrane (ie: 6 mil visqueen) shall be placed over 2 inches of clean, poorly
graded, coarse sand, decomposed granite, or crushed rock. The membrane shall be
covered with 2 inches of sand to protect it during construction and the sand should
be lightly moistened just prior to placing concrete. All concrete used on this project
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shall have a minimum compressive strength of 2500 psi unless otherwise stated on
the Building Plans.
If imported soil materials are used during grading to bring the building pad to
the design elevations, or if variations of soils or building locations are encountered,
foundation and slab designs shall be reevaluated by our firm upon the complefion of
the rough grading operation and the foundation excavations.
Footings located on or adjacent to the top of slopes shall be extended to a
sufficient depth to provide a minimum horizontal distance of 7 feet between the
bottom edge of the footing and the face of the slope.
These foundation recommendations are minimum design requirements for the
soils encountered during this investigafion; however, actual foundations shall be
designed by the Structural Engineer for the expected live and dead loads, and for
wind and seismic loads.
Findings of this Report are valid as of this date; however, changes in
conditions of a property can occur with passage of time, whether they be due to
natural process or works of man on this or adjacent properties. In addition, changes
in applicable or appropriate standards occur whether they result from legislation or
broadening of knowledge. Accordingly, findings of this Report may be invalidated
wholly or partially by changes outside our control. Therefore, this Report is subject
to review and should not be relied upon after a period of one year.
In the event that any changes in the nature, design, or location of buildings
are planned, the conclusions and recommendations contained in this Report shall
not be considered valid unless the changes are reviewed and the conclusions of this
Report are modified or verified in writing.
This Report is issued with the understanding that it is the responsibility of the
owner or of his representative to ensure that the information and recommendafions
contained herein are called to the attention of the project Architect and Engineer
and are incorporated into the plans. Further, the necessary steps shall be taken to
ensure that the contractor and subcontractors carry out such recommendations in the
field.
1611-ASO. MELROSE DRIVE #285, VISTA, CA 92083-5497 • 760-945-3150 • FAX: 760-945-4221
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CIVIL GEOTECHNICAL t QUALITY ENGINEERING
FOUNDATION DESIGN • UNO SURVEYING • SOIL TESTING
CONSTRUCTION MANAGEMENTS INSPECTION
It is recommended that the Soil Engineer be provided the opportunity for a
general review of the final design plans and specificafions for this project in order
that the recommendations of this report may be properly interpreted and
implemented in the design. It is also recommended that the Soil Engineer be
provided the opportunity to verify the foundafion and slab construcfion in the field
prior to placing concrete. (If the Soil Engineer is not accorded the privilege of
making these reviews, he can assume no responsibility for misinterpretafion of his
recommendafions).
The Soil Engineer has prepared this Report for the exclusive use of the client
and authorized agents. This Report has been prepared in accordance with generally
accepted soil and foundation engineering pracfices. No other warranties, either
expressed or implied, are made as to the professional advice provided under the
terms of this agreement, and included in the Report.
B&B Engineering Inc. and Associates appreciate this opportunity to be of
service. Should you have any questions regarding this project, please do not
hesitate to contact us.
Sincerely,
frthur C. Beard RCE RQE RGE
Chief Engineer
1611-ASO. MELROSE DRIVE #285, VISTA. CA 92083-5497 • 760-945-3150 • FAX: 760-945-4221